Twist drill assembly, components for same and method for making same

The invention claimed is: 1. A twist drill assembly comprising a shaft and a drill tip; the shaft having a single internal shaft conduit for a fluid, extending between orifices formed into the shaft; the drill tip having an internal drill tip conduit for the fluid, extending between orifices formed into the drill tip; the shaft and the drill tip configured such that the drill tip is connectable to an end of the shaft with the internal drill tip conduit in communication with the internal shaft conduit, allowing the fluid to be capable of flowing from the internal shaft conduit into the internal drill tip conduit; the internal shaft conduit having a spiral form aligned with a central longitudinal axis of the shaft, and configured to complement the arrangement of spiral flutes formed on the shaft; in which the shaft comprises three flutes and the internal shaft conduit presents a three-lobed shape in lateral cross-section through the shaft. 2. A twist drill assembly as claimed in claim 1 , in which the internal shaft conduit is configured to have a sufficiently large cross-sectional area to allow a desired predetermined flux of fluid to pass through it, and configured within the shaft to maximise the thickness of the wall between the internal shaft conduit and the innermost surface of the flutes. 3. A twist drill assembly as claimed in claim 2 , in which the drill tip comprises a structure consisting essentially of PCD material, the internal drill tip conduit being at least partly defined by the structure. 4. A twist drill assembly as claimed in claim 1 , in which the internal shaft conduit is configured spirally in phase with the spiral flutes, the minimum thickness between the conduit and the flutes being constant along at least a major part of the length of the flutes. 5. A twist drill assembly as claimed in claim 4 in which the drill tip comprises a structure consisting essentially of PCD material, the internal drill tip conduit being at least partly defined by the structure. 6. A twist drill assembly as claimed in claim 1 , in which the internal shaft conduit is configured spirally in phase with the spiral flutes, the minimum thickness between the conduit and the flutes increasing continuously from a proximate end of the shaft at which the drill tip is capable of being connected, towards an opposite distal end of the shaft. 7. A twist drill assembly as claimed in claim 1 , in which the drill tip comprises a structure consisting essentially of PCD material, the internal drill tip conduit being at least partly defined by the structure. 8. A twist drill assembly as claimed in claim 7 , in which the lateral cross-section area of the conduit is at most 10 percent of the lateral cross-section area of the shaft, excluding the flutes. 9. A twist drill assembly as claimed in claim 1 , in which the drill tip comprises advanced ceramic material selected from the group consisting of tungsten carbide, titanium carbide, boron carbide, silicon carbide, silicon nitride, alumina and boron sub-oxide. 10. A twist drill assembly as claimed in claim 1 , in which the lateral cross-section area of the internal shaft conduit is at most 10 percent of the lateral cross-section area of the shaft, excluding the flutes. 11. A twist drill assembly as claimed in claim 1 , wherein the drill tip comprises a structure consisting essentially of PCD or PCBN material, the internal drill tip conduit being at least partly defined by the structure. 12. A twist drill comprising a twist drill assembly as claimed claim 1 , the drill tip connected to the shaft by means of a braze material disposed between the drill tip and the shaft. 13. A twist drill assembly as claimed in claim 1 , in which the drill tip comprises a structure consisting essentially of PCBN material, the internal drill tip conduit being at least partly defined by the structure. 14. A twist drill assembly as claimed in claim 13 , in which the lateral cross-section area of the conduit is at most 10 percent of the lateral cross-section area of the shaft, excluding the flutes. 15. A twist drill assembly as claimed in claim 1 , in which the drill tip consists essentially of PCD material. 16. A twist drill assembly as claimed in claim 1 , in which the drill tip consists essentially of PCBN material. 17. A shaft for a twist drill assembly including a drill tip having an internal drill tip conduit, the shaft comprising a single internal shaft conduit for a fluid, extending between orifices formed into the shaft; the internal shaft conduit having a spiral form aligned with a central longitudinal axis of the shaft, configured to complement the arrangement of spiral flutes formed on the shaft, wherein the shaft is configured for connection to the drill tip at an end of the shaft such that the internal drill tip conduit is in communication with the internal shaft conduit, allowing the fluid to be capable of flowing from the internal shaft conduit into the internal drill tip conduit, wherein the shaft comprises three flutes and the internal shaft conduit presents a three-lobed shape in lateral cross-section through the shaft. 18. A method of making a twist drill comprising a twist drill assembly, the twist drill assembly comprising a shaft and a drill tip; the shaft having a single internal shaft conduit for a fluid, extending between orifices formed into the shaft, in which the shaft comprises three flutes and the internal shaft conduit presents a three-lobed shape in lateral cross-section through the shaft; the drill tip having an internal drill tip conduit for the fluid, extending between orifices formed into the drill tip; the shaft and the drill tip configured such that the drill tip is connectable to an end of the shaft with the internal drill tip conduit in communication with the internal shaft conduit, allowing the fluid to be capable of flowing from the internal shaft conduit into the internal drill tip conduit; the internal shaft conduit presenting an orifice at an end of the shaft and having a spiral form aligned with a central longitudinal axis of the shaft, and configured to complement the arrangement of spiral flutes formed on the shaft; the method including joining the drill tip to the end of the shaft by means of braze material disposed between the drill tip and the shaft; and boring at least one internal drill tip conduit through the drill tip, the internal drill tip conduit extending from a working surface of the drill tip to the orifice of the internal shaft conduit. 19. A method as claimed in claim 18 , in which the drill tip comprises a super-hard structure consisting of PCD material and the method includes boring at least one internal drill tip conduit through the super-hard structure.